Tumor Necrosis Factor Alpha

Published: 2021-07-07 00:09:05
essay essay

Category: Medical

Type of paper: Essay

This essay has been submitted by a student. This is not an example of the work written by our professional essay writers.

Hey! We can write a custom essay for you.

All possible types of assignments. Written by academics

GET MY ESSAY
IntroductionTumor Necrosis Factor Alpha (TNFα) is a type of cell signaling protein or cytokine with a molecular weight of 25 kDa. Also known as cachectin or cachexin, it plays an important role in inflammation. it exists in two forms, a soluble trimeric form or a membrane-bound form. It was first reported by Dr. Gale A. Granger in 1968 who observed the lymphocytes producing a cytotoxic factor. He called the factor lymphotoxin or LT. At almost the same time Dr. Nancy H. Ruddle reported the same phenomenon and hence the discovery is credited to both Dr. Ruddle and Granger. However, the name “tumor necrosis factor” was suggested by Dr. Loyd J. Old in 1975 when he reported the macrophages producing another factor. The first TNF was successfully cloned in 1984. Further research led to LT being renamed as TNFβ and TNF as TNFα.ProductionInitially, macrophages were considered to be the primary producers of TNF. However, with time, it was discovered that numerous other types of cells also produce it. These types of cells include mast, lymphoid, NK and endothelial cells, neurons, adipose tissue, neurons, cardiac myocytes, eosinophils, neutrophils and CD4+ lymphocytes.Major Roles of TNFαTumor necrosis factor alpha (TNFα) is produced in the body mainly by macrophages and impacts the physiological processes of the human body in a vast number of ways. It regulates the immune system of the body and acts as a mediator in of the immune response. It performs these functions by activating the eosinophils and the neutrophils. Furthermore, it also has a profound impact on the vascular endothelium. It has also been demonstrated to enhance the antiviral activity and resulting in the fluctuations if the metabolism of lipids. As a regulator, excessive amounts of TNFα produced during diseases worsen the health of the individuals suffering from the illness. It has also been found to play the role of mediation of inflammatory diseases of the joints, rejection of the allograft, a few parasitic forms of infections, endotoxic shocks and cachexia related to various types of malignant diseases.TNFα plays an important role in the physiology of human beings, especially the regulation of the immune cell. As it is a pyrogen, it may result in inflammation or apoptotic cell death. Moreover, it inhibits viral replication and tumorigenesis. Therefore, its regulation is vital for the proper functioning of the human body. Any fluctuations in its levels may lead to various diseases like cancer, inflammatory bowel disease, Alzheimer’s, psoriasis and major depression. TNFα stimulates the hypothalamus and liver. It also stimulates phagocytosis and several other tissues. The cytokine enhances the resistance to insulin and plays a vital role n the regulation of the perception of bitter taste.Reception and SignalingTwo receptors, namely TNFR1 and TNFR2 can bind TNFα. The receptor TNFR1 has a molecular weight of 55 kDa and TNFR2 has a weight of 75 kDa. Both these receptors belong to the superfamily of tumor necrosis factor receptor or TNFRSF. The receptor TNFR1 can bind both forms of TNFα, soluble and the one bounded by a membrane. This receptor is expressed in a vast variety of tissues. On the other hand, TNFR2 generally exists in the cells found in the immune system of the body and can merely bind the form of TNFα bound by a membrane. Hence, the role played by TNFR2 is often underestimated as TNFR1 is the main source of information related to the signaling of TNFα.The cytokine activates the following three pathways.The nuclear factor kappa light chain enhancer of activated B cells (NF-κB)The mitogen-activated protein kinase (MAPK)And the death signaling.Therapeutic ApplicationsTNFα acts towards the promotion of inflammation and hence, is a cause of a variety of autoimmune diseases. These disorders may include inflammatory bowel disease (IBD), asthma, psoriasis, ankylosing spondylitis, rheumatoid arthritis and hidradenitis suppurativa. Therefore, in some instances, these types of diseases may be treated through the utilization of TNF inhibitors. The treatment works by directly binding the inhibitor, such as a monoclonal antibody (like infliximab), to TNFα. These antibodies form a much stronger bond with TNFα as compared to the TNFR receptors.However, thus far, the cytokine has limited clinical and therapeutic applications and is currently limited to the treatment of patients suffering from cancer in phase 1 and 2 trials. Still, the exact efficacy of the treatment is not yet proven. There has been a lot of research regarding the potential therapeutic applications of the cytokine to treat cancer in the combination therapy. The research conducted by various scientists suggests the possibility of TNFα being able to interact with other cytotoxic drugs and biological agents. Moreover, the medical community is discussing the potential of utilizing particular antibodies to function as inhibitors to TNFα production and counteract neoplastic disease and septic shock.Furthermore, in the context of the Anti-TNF therapy, the treatment has proven to be somewhat effective in the prolonged stabilization of renal cell carcinoma by using infliximab. Further tests have been conducted on the patients suffering from ovarian and breast cancers by the utilization of etanercept and some patients have shown signs of prolonged stabilization of the disease.

Warning! This essay is not original. Get 100% unique essay within 45 seconds!

GET UNIQUE ESSAY

We can write your paper just for 11.99$

i want to copy...

This essay has been submitted by a student and contain not unique content

People also read